forked from cerc-io/plugeth
core: transaction pool optimizations (#21328)
* core: added local tx pool test case * core, crypto: various allocation savings regarding tx handling * core/txlist, txpool: save a reheap operation, avoid some bigint allocs Co-authored-by: Marius van der Wijden <m.vanderwijden@live.de>
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5b081ab214
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6c9f040ebe
104
core/tx_list.go
104
core/tx_list.go
@ -99,7 +99,30 @@ func (m *txSortedMap) Forward(threshold uint64) types.Transactions {
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// Filter iterates over the list of transactions and removes all of them for which
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// the specified function evaluates to true.
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// Filter, as opposed to 'filter', re-initialises the heap after the operation is done.
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// If you want to do several consecutive filterings, it's therefore better to first
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// do a .filter(func1) followed by .Filter(func2) or reheap()
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func (m *txSortedMap) Filter(filter func(*types.Transaction) bool) types.Transactions {
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removed := m.filter(filter)
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// If transactions were removed, the heap and cache are ruined
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if len(removed) > 0 {
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m.reheap()
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}
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return removed
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}
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func (m *txSortedMap) reheap() {
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*m.index = make([]uint64, 0, len(m.items))
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for nonce := range m.items {
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*m.index = append(*m.index, nonce)
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}
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heap.Init(m.index)
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m.cache = nil
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}
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// filter is identical to Filter, but **does not** regenerate the heap. This method
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// should only be used if followed immediately by a call to Filter or reheap()
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func (m *txSortedMap) filter(filter func(*types.Transaction) bool) types.Transactions {
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var removed types.Transactions
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// Collect all the transactions to filter out
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@ -109,14 +132,7 @@ func (m *txSortedMap) Filter(filter func(*types.Transaction) bool) types.Transac
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delete(m.items, nonce)
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}
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}
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// If transactions were removed, the heap and cache are ruined
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if len(removed) > 0 {
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*m.index = make([]uint64, 0, len(m.items))
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for nonce := range m.items {
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*m.index = append(*m.index, nonce)
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}
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heap.Init(m.index)
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m.cache = nil
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}
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return removed
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@ -197,10 +213,7 @@ func (m *txSortedMap) Len() int {
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return len(m.items)
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}
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// Flatten creates a nonce-sorted slice of transactions based on the loosely
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// sorted internal representation. The result of the sorting is cached in case
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// it's requested again before any modifications are made to the contents.
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func (m *txSortedMap) Flatten() types.Transactions {
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func (m *txSortedMap) flatten() types.Transactions {
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// If the sorting was not cached yet, create and cache it
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if m.cache == nil {
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m.cache = make(types.Transactions, 0, len(m.items))
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@ -209,12 +222,27 @@ func (m *txSortedMap) Flatten() types.Transactions {
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}
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sort.Sort(types.TxByNonce(m.cache))
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}
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return m.cache
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}
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// Flatten creates a nonce-sorted slice of transactions based on the loosely
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// sorted internal representation. The result of the sorting is cached in case
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// it's requested again before any modifications are made to the contents.
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func (m *txSortedMap) Flatten() types.Transactions {
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// Copy the cache to prevent accidental modifications
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txs := make(types.Transactions, len(m.cache))
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copy(txs, m.cache)
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cache := m.flatten()
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txs := make(types.Transactions, len(cache))
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copy(txs, cache)
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return txs
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}
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// LastElement returns the last element of a flattened list, thus, the
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// transaction with the highest nonce
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func (m *txSortedMap) LastElement() *types.Transaction {
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cache := m.flatten()
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return cache[len(cache)-1]
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}
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// txList is a "list" of transactions belonging to an account, sorted by account
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// nonce. The same type can be used both for storing contiguous transactions for
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// the executable/pending queue; and for storing gapped transactions for the non-
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@ -252,7 +280,11 @@ func (l *txList) Add(tx *types.Transaction, priceBump uint64) (bool, *types.Tran
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// If there's an older better transaction, abort
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old := l.txs.Get(tx.Nonce())
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if old != nil {
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threshold := new(big.Int).Div(new(big.Int).Mul(old.GasPrice(), big.NewInt(100+int64(priceBump))), big.NewInt(100))
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// threshold = oldGP * (100 + priceBump) / 100
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a := big.NewInt(100 + int64(priceBump))
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a = a.Mul(a, old.GasPrice())
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b := big.NewInt(100)
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threshold := a.Div(a, b)
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// Have to ensure that the new gas price is higher than the old gas
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// price as well as checking the percentage threshold to ensure that
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// this is accurate for low (Wei-level) gas price replacements
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@ -296,20 +328,25 @@ func (l *txList) Filter(costLimit *big.Int, gasLimit uint64) (types.Transactions
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l.gascap = gasLimit
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// Filter out all the transactions above the account's funds
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removed := l.txs.Filter(func(tx *types.Transaction) bool { return tx.Cost().Cmp(costLimit) > 0 || tx.Gas() > gasLimit })
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removed := l.txs.Filter(func(tx *types.Transaction) bool {
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return tx.Gas() > gasLimit || tx.Cost().Cmp(costLimit) > 0
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})
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// If the list was strict, filter anything above the lowest nonce
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if len(removed) == 0 {
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return nil, nil
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}
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var invalids types.Transactions
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if l.strict && len(removed) > 0 {
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// If the list was strict, filter anything above the lowest nonce
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if l.strict {
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lowest := uint64(math.MaxUint64)
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for _, tx := range removed {
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if nonce := tx.Nonce(); lowest > nonce {
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lowest = nonce
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}
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}
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invalids = l.txs.Filter(func(tx *types.Transaction) bool { return tx.Nonce() > lowest })
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invalids = l.txs.filter(func(tx *types.Transaction) bool { return tx.Nonce() > lowest })
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}
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l.txs.reheap()
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return removed, invalids
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}
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@ -363,6 +400,12 @@ func (l *txList) Flatten() types.Transactions {
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return l.txs.Flatten()
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}
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// LastElement returns the last element of a flattened list, thus, the
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// transaction with the highest nonce
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func (l *txList) LastElement() *types.Transaction {
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return l.txs.LastElement()
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}
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// priceHeap is a heap.Interface implementation over transactions for retrieving
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// price-sorted transactions to discard when the pool fills up.
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type priceHeap []*types.Transaction
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@ -495,8 +538,29 @@ func (l *txPricedList) Underpriced(tx *types.Transaction, local *accountSet) boo
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// Discard finds a number of most underpriced transactions, removes them from the
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// priced list and returns them for further removal from the entire pool.
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func (l *txPricedList) Discard(slots int, local *accountSet) types.Transactions {
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// If we have some local accountset, those will not be discarded
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if !local.empty() {
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// In case the list is filled to the brim with 'local' txs, we do this
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// little check to avoid unpacking / repacking the heap later on, which
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// is very expensive
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discardable := 0
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for _, tx := range *l.items {
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if !local.containsTx(tx) {
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discardable++
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}
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if discardable >= slots {
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break
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}
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}
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if slots > discardable {
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slots = discardable
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}
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}
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if slots == 0 {
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return nil
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}
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drop := make(types.Transactions, 0, slots) // Remote underpriced transactions to drop
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save := make(types.Transactions, 0, 64) // Local underpriced transactions to keep
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save := make(types.Transactions, 0, len(*l.items)-slots) // Local underpriced transactions to keep
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for len(*l.items) > 0 && slots > 0 {
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// Discard stale transactions if found during cleanup
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@ -1059,8 +1059,8 @@ func (pool *TxPool) runReorg(done chan struct{}, reset *txpoolResetRequest, dirt
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// Update all accounts to the latest known pending nonce
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for addr, list := range pool.pending {
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txs := list.Flatten() // Heavy but will be cached and is needed by the miner anyway
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pool.pendingNonces.set(addr, txs[len(txs)-1].Nonce()+1)
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highestPending := list.LastElement()
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pool.pendingNonces.set(addr, highestPending.Nonce()+1)
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}
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pool.mu.Unlock()
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@ -1457,6 +1457,10 @@ func (as *accountSet) contains(addr common.Address) bool {
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return exist
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}
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func (as *accountSet) empty() bool {
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return len(as.accounts) == 0
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}
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// containsTx checks if the sender of a given tx is within the set. If the sender
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// cannot be derived, this method returns false.
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func (as *accountSet) containsTx(tx *types.Transaction) bool {
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@ -1890,11 +1890,15 @@ func benchmarkFuturePromotion(b *testing.B, size int) {
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}
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// Benchmarks the speed of batched transaction insertion.
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func BenchmarkPoolBatchInsert100(b *testing.B) { benchmarkPoolBatchInsert(b, 100) }
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func BenchmarkPoolBatchInsert1000(b *testing.B) { benchmarkPoolBatchInsert(b, 1000) }
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func BenchmarkPoolBatchInsert10000(b *testing.B) { benchmarkPoolBatchInsert(b, 10000) }
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func BenchmarkPoolBatchInsert100(b *testing.B) { benchmarkPoolBatchInsert(b, 100, false) }
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func BenchmarkPoolBatchInsert1000(b *testing.B) { benchmarkPoolBatchInsert(b, 1000, false) }
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func BenchmarkPoolBatchInsert10000(b *testing.B) { benchmarkPoolBatchInsert(b, 10000, false) }
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func benchmarkPoolBatchInsert(b *testing.B, size int) {
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func BenchmarkPoolBatchLocalInsert100(b *testing.B) { benchmarkPoolBatchInsert(b, 100, true) }
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func BenchmarkPoolBatchLocalInsert1000(b *testing.B) { benchmarkPoolBatchInsert(b, 1000, true) }
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func BenchmarkPoolBatchLocalInsert10000(b *testing.B) { benchmarkPoolBatchInsert(b, 10000, true) }
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func benchmarkPoolBatchInsert(b *testing.B, size int, local bool) {
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// Generate a batch of transactions to enqueue into the pool
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pool, key := setupTxPool()
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defer pool.Stop()
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@ -1912,6 +1916,10 @@ func benchmarkPoolBatchInsert(b *testing.B, size int) {
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// Benchmark importing the transactions into the queue
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b.ResetTimer()
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for _, batch := range batches {
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if local {
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pool.AddLocals(batch)
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} else {
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pool.AddRemotes(batch)
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}
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}
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}
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